CN109791110A

CN109791110A - Sample carrier and production method for atomizing furnace

Info

Publication number: CN109791110A
Application number: CN201780061622.7A
Authority: CN
Inventors: 拉尔夫·盖特纳; 斯特芬·韦勒; 因卡·施瓦兹
Original assignee: Schunk Kohlenstofftechnik GmbH
Current assignee: Schunk Kohlenstofftechnik GmbH
Priority date: 2016-10-07
Filing date: 2017-09-27
Publication date: 2019-05-21
Also published as: EP3523632A1; WO2018065276A1; DE102016219492A1

Abstract

The present invention relates to a kind of for producing the method for being used for the sample carrier of atomizing furnace, method especially for producing the sample carrier of the atomizing furnace for atomic absorption spectrography (AAS), further relate to a kind of sample carrier including reception pipe, the reception pipe forms the tubulose receiving cavity for accommodating analyte, and the sample carrier is made of the graphite being permeated with pyrolytic carbon completely.

Description

Sample carrier and production method for atomizing furnace

Technical field

The present invention relates to a kind of sample carrier of atomizing furnace for analytical equipment and a kind of analytical equipments, are especially used for The analytical equipment of atomic absorption spectrography (AAS) and a kind of method for being used to prepare sample carrier, the sample carrier have reception pipe, The reception pipe forms the tubulose reception space for receiving analyte, and wherein sample carrier is made of graphite completely.

Background technique

For the atomizing furnace of atomic absorption spectrography (AAS) (AAS), it to be especially used for graphite furnace atomic absorption spectrometry (GF- AAS atomizing furnace) is fully known, wherein graphite furnace or graphite-pipe are carried out electric heating heating with atomization analysis object.Graphite furnace Or tubular type furnace apparatus usually has sample carrier, sample carrier is with the reception space for being in shape tubulose.It is received in tubulose empty In, analyte can be atomized on the platform of plate-like directly in reception space or for example in reception space.For spectrum Analysis, the longitudinal end of tubulose reception space is open by design always.Tubulose reception space is received by the graphite of sample carrier Pipe is formed.Reception space or reception pipe longitudinally or can be heated vertically.This means that electric current for heating can be from reception pipe Longitudinal end flow through reception pipe length or reception pipe can by be positioned at its wall opposite side protrusion provide electricity Contact, perpendicular to its longitudinal axis flows through reception pipe so as to cause electric current.In this case, mounting protrusion is supported on analysis dress It is in the mounting structure for the tubular type furnace apparatus set and in electrical contact.

According to the embodiment of the analytical equipment for atomic absorption spectrography (AAS) and manufacturer, different sample carriers is Know, is suitable for corresponding atomizing furnace.For example, a kind of atomizing furnace known and sample carrier from 199 32 874 C2 of DE, Wherein specimen holder is arranged in sample carrier and is supported on sample carrier in a manner of putting three or four supporting projections On wall.Since sample carrier is always clipped between the bearing of atomizing furnace to establish electrical contact, clamping force is applied to sample load On body.

Due to their geometry, it is known that sample carrier only can be by complicated machining from graphite next life It produces.Graphite is usually electrographite, (such as blocky) can be obtained in the form of semi-finished product.In order to obtain sample as stable as possible Product carrier, it can be envisaged that be to recompress semi-finished product or graphite block.For this purpose, by graphite block high-carbon liquid (such as resin, coke Oil or pitch) dipping, it is then carbonized and is graphitized.In this approach, the practical conversion of only very small part of carbonaceous liquid For the carbon being deposited in the hole of graphite block.This so-called recompression can repeat, to obtain the close of required semi-finished product Degree and intensity.

Known sample carrier has the drawback that they are usually destroyed after multiple measurement periods.In the measurement period phase Between, sample carrier is subjected to extreme changes of temperature and high current flows through it.This clearly results in the adhesive in electrographite material It disappears or becomes fragile, therefore the sample carrier for example after 400 measurement periods is caused to rupture.

Summary of the invention

Therefore, the purpose of the present invention is to propose a kind of sample carrier and production method with the more long life.

The purpose by the method for the feature with claim 1, feature with claim 12 sample carrier and The analytical equipment of feature with claim 14 is realized.

Specific embodiment

In the sample carrier according to the present invention for producing for atomizing furnace (especially for atomic absorption spectrography (AAS)) Method in, sample carrier has reception pipe, which forms the tubulose reception space for receiving analyte, sample carrier It is made completely of graphite, wherein the graphite of sample carrier is pyrolyzed carbon infiltration.

When producing electrographite, powder carbon material is pressed by profiled part by so-called binder, then will The profiled part graphitization.Binder is adhered on the particle of electrographite and connects particle.At the temperature of electrographite During reason, binder is converted into carbon and forms so-called binder bridge between particles.It has been found that especially in sample carrier In the case where, the high resistant caking inhibiter bridge of electrographite is subjected to high load capacity, this may cause microlitre China of the binder bridge.So Microlitre China leads to the destruction of binder bridge afterwards, so as to cause the strength reduction of sample carrier.According to the present invention it is possible to pass through Binder bridge is protected with pyrolytic carbon infiltration sample carrier (i.e. the graphite of sample carrier).Pyrolytic carbon has high conductivity, thus Some loads are shared from relatively high-impedance binder bridge.This extends the service life of the binder bridge of graphite, to extend The service life of sample carrier.For example, it was discovered that the service life of the sample carrier penetrated with pyrolytic carbon is conventional sample carrier Three to five times.Furthermore, it is possible to be omitted completely the processing step of recompression, this makes sample carrier be particularly easy to produce.

Machine can be passed through before the graphite with pyrolytic carbon infiltration sample carrier according to this method embodiment Tool processes the final shape that semi-finished product graphite products form sample carrier.This means that it is envisaged that sample carrier at least portion Point ground or even completely by as semi-finished product graphite block machining, and sample carrier only the shape of sample carrier It is just permeated with pyrolytic carbon after determination.This permission sample carrier is relatively quickly saturated and material investment is low.

Optionally, the final shape of sample carrier can be by mechanical after permeating semi-finished product graphite products with pyrolytic carbon Semi-finished product graphite products are processed to be formed.Therefore, first it is envisaged that before mechanical machining with pyrolytic carbon infiltration half at Product graphite products or graphite block.In this manner it is achieved that especially uniform pyrolytic carbon distribution in sample carrier.

Semi-finished product graphite products can by the powder containing carbon is mixed with binder and then carry out compression and temperature Process for producing.In this way, such as electrographite block can be formed.Electrographite block can have allow with pyrolytic carbon permeate Porosity.

During infiltration, the adjacent particle in graphite can be at least partially coated with pyrolytic carbon.In this way it is possible to Coating is adjacent to each other in this way or is in contact with each other and passes through the particle that binder bridging connects, so that binder bridge is also coated with Pyrolytic carbon.

During the infiltration of the graphite of sample carrier, the hole in the graphite of sample carrier can at least partly be pyrolyzed carbon Closing is filled with pyrolytic carbon.Filling pore already leads to high density and high-intensitive sample carrier.

In addition, entire sample carrier can be pyrolyzed carbon infiltration.Therefore, permeable formation, but also pyrolytic carbon can not only be formed The graphite of sample carrier is diffused completely, therefore pyrolytic carbon is present in entire sample carrier.

Preferably, the graphite of sample carrier can be permeated by CVI (chemical vapor infiltration) method.

In another embodiment of this method, it can be envisaged that be sample carrier be coated with pyrolytic carbon superficial layer. Therefore, supplement superficial layer has can be set in the body surfaces of sample carrier, the supplement superficial layer be applied on surface and cover and Close hole and the graphite of sample carrier.Moreover, coating is particularly advantageous the fact that be then made of pyrolytic carbon or pyrolytic graphite, Because of this and the material material basically the same for infiltration.Moreover, sample carrier component (can be made of single-piece but Can also be made of more than one piece) it can be fixed to one another by pyrolytic coating.

Preferably, sample carrier can be coated by CVD (chemical vapor deposition) method.For example, it is envisioned that It is to use CVI method first and use CVD method later.

Furthermore, it is contemplated that be during the technique of infiltration or coated sample carrier, during the first operation stage It is permeated at a temperature of first, then implements coating at the second temperature during the second operation stage.Wherein it is possible to select ratio Longer first operation stage of second operation stage and/or it can choose the first temperature more lower than second temperature.With this side Formula, such as the main body or component of sample carrier can be permeated with pyrolytic carbon first, in such a case, it is possible in lower technique At a temperature of advantageously permeated in relatively long process cycle.It then can be by the way that technological temperature be increased to second temperature Level applies the external coating on the surface of sample carrier or its component.Then, in contrast, carried out under higher technological temperature The second operation stage can spend the shorter time.In this way, such as then the infiltration of surface coating is carried out with pyrolytic carbon It can be carried out in a simple manner in a continual coating procedure thoroughly.

Sample carrier according to the present invention for atomizing furnace especially has for the sample carrier of atomic absorption spectrography (AAS) There is reception pipe, which forms the tubulose reception space for receiving analyte, and sample carrier is made of graphite completely, wherein The graphite of sample carrier is pyrolyzed carbon infiltration.The advantages of about sample carrier according to the present invention, with reference to side according to the present invention The description of the advantages of method.

Sample carrier can have < 5%, preferably < 1%, particularly preferably 0% porosity.Porosity is essentially 0%, Particularly compact can be produced and firm sample carrier.

According to the description of the feature for the dependent claims for being related to claim to a method 1, other of sample carriers are advantageous real The scheme of applying is apparent.

Analytical equipment according to the present invention includes especially atomizing furnace, mist for the analytical equipment of atomic absorption spectrography (AAS) Change the with good grounds sample carrier of the invention of stove.

Analytical equipment may include tubular type furnace apparatus, and tubular type furnace apparatus, which has, is used to support sample carrier and and sample carrier The mounting structure of electrical contact is established, wherein tubular type furnace apparatus can be made of graphite, and wherein the graphite of tubular type furnace apparatus can be by Pyrolytic carbon infiltration.Therefore, tubular type furnace apparatus can be produced in a manner of identical with sample carrier.

Tubular type furnace apparatus may include the mounting structure for being used to support sample carrier and establishing electrical contact with sample carrier.Peace Assembling structure can have two mounting bases, and each mounting base can distribute to the mounting protrusion of sample carrier.Then, sample carrier It may be mounted in the mounting base of mounting structure and be provided with electrical contact.In this case, mounting structure and its mounting base Also it is made of graphite, wherein mounting structure can also be pyrolyzed carbon infiltration.Optionally, sample carrier can form tube furnace dress It sets, it means that sample carrier can be directly installed on the mounting structure in the mounting structure of atomizing furnace and with atomizing furnace and carry out electricity Contact.

According to the description of the feature for the dependent claims for being related to device claim 12, other of analytical equipment are advantageous real The scheme of applying is apparent.

Claims

1. it is a kind of for producing the method for being used for the sample carrier of atomizing furnace, especially atomic absorption spectrography (AAS) is used for for producing Atomizing furnace sample carrier method, the sample carrier has reception pipe, and the reception pipe is formed for receiving analyte Tubulose reception space, the sample carrier is made of graphite completely,

It is characterized in that

The graphite of the sample carrier is pyrolyzed carbon infiltration.

2. according to the method described in claim 1,

It is characterized in that

Before the graphite for permeating the sample carrier with the pyrolytic carbon, by being machined semi-finished product graphite products shape At the final shape of the sample carrier.

3. according to the method described in claim 1,

It is characterized in that

After permeating semi-finished product graphite products with the pyrolytic carbon, institute is formed by being machined the semi-finished product graphite products State the final shape of sample carrier.

4. according to the method in claim 2 or 3,

It is characterized in that

By the powder containing carbon is mixed with binder and then carry out compression and Temperature Treatment form the semi-finished product graphite Product.

5. method according to any of the preceding claims,

It is characterized in that

During infiltration, the adjacent particle in the graphite is at least partially coated with the pyrolytic carbon.

6. method according to any of the preceding claims,

It is characterized in that

During the infiltration of the graphite of the sample carrier, the hole in the graphite of the sample carrier is at least partly It is closed by the pyrolytic carbon or filled with the pyrolytic carbon.

7. method according to any of the preceding claims,

It is characterized in that

The entire sample carrier is pyrolyzed carbon infiltration.

8. method according to any of the preceding claims,

It is characterized in that

The graphite of the sample carrier is permeated by CVI method.

9. method according to any of the preceding claims,

It is characterized in that

The sample carrier is coated with pyrolysis carbon surface layer.

10. according to the method described in claim 9,

It is characterized in that

The sample carrier is coated by CVD method.

11. method according to claim 9 or 10,

It is characterized in that

During the technique of infiltration or the coating of the sample carrier, in the first operation stage at the first temperature occur described in The coating is then implemented in infiltration at the second temperature in the second operation stage, selects longer than second operation stage First operation stage and/or selection first temperature lower than the second temperature.

12. a kind of sample carrier for atomizing furnace, the especially sample carrier for the atomizing furnace of atomic absorption spectrography (AAS), institute Sample carrier is stated with reception pipe, the reception pipe forms the tubulose reception space for receiving analyte, the sample carrier It is made completely of graphite,

It is characterized in that

The graphite of the sample carrier is pyrolyzed carbon infiltration.

13. sample carrier according to claim 12,

It is characterized in that

The sample carrier has the porosity less than 5%, preferably smaller than 1% and particularly preferably 0%.

14. a kind of analytical equipment is especially used for the analytical equipment of atomic absorption spectrography (AAS), including atomizing furnace,

It is characterized in that

The atomizing furnace has sample carrier described in any one of 2 or 13 according to claim 1.

15. analytical equipment according to claim 14,

It is characterized in that

The analytical equipment includes tubular type furnace apparatus, the tubular type furnace apparatus have be used to support the sample carrier and with it is described Sample carrier establishes the mounting structure of electrical contact, and the tubular type furnace apparatus is made of graphite, the stone of the tubular type furnace apparatus Ink is pyrolyzed carbon infiltration.